CN210632092U - Ammonia gas recovery unit in amino alkoxy silane coupling agent production - Google Patents

Abstract

The utility model relates to the technical field of ammonia recovery devices, in particular to an ammonia recovery device in the production of amino alkoxy silane coupling agent, which effectively improves the production efficiency by the integrated connection of the reaction furnace body of the arranged amino alkoxy silane and an ammonia storage tank, and effectively improves the space utilization rate by the circular design of the ammonia storage tank; can effectively observe out the pressure condition in the ammonia storage tank through being provided with the manometer, prevent to receive the inside too high production damage of pressure of jar because of the ammonia storage, the effectual personal safety who has protected the staff can effectively observe out the temperature condition in the reacting furnace body through being provided with the thermometer, effectively makes things convenient for the staff to observe the temperature.

Description

Ammonia gas recovery unit in amino alkoxy silane coupling agent production

Technical Field

The utility model relates to an ammonia recovery unit technical field, in particular to ammonia recovery unit in amino alkoxy silane coupling agent production.

Background

Ammonia gas is used for producing ammonia water, nitrogen fertilizer (urea, ammonium bicarbonate and the like), compound fertilizer, nitric acid, ammonium salt, soda ash and the like, and is widely applied to the fields of chemical industry, light industry, chemical fertilizer, pharmacy, synthetic fiber and the like. The nitrogen-containing inorganic salt, organic matter intermediate, sulfa drug, polyurethane, polyamide fiber, nitrile rubber and the like are directly prepared from ammonia serving as a raw material, in addition, liquid ammonia is commonly used as a refrigerant, and the ammonia can also be used as a biofuel to provide energy;

therefore, the preparation and recovery of ammonia are very important, most of the existing ammonia recovery devices in the production of amino alkoxy silane coupling agents are independent recovery tanks, the independent structure is not suitable for being connected with the production process of amino alkoxy silane coupling agents, the production efficiency is low, and the independent recovery devices occupy a large area and are not beneficial to improving the space utilization rate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ammonia gas recovery unit in amino alkoxy silane coupling agent production to the most independent recovery tank of recovery unit who proposes the ammonia in solving above-mentioned background art, this kind of independent structure is not suitable for and is connected with the technology of amino alkoxy silane coupling agent production, and this has just caused production efficiency ratio low, and independent recovery unit area is bigger moreover, is unfavorable for improving space utilization's problem.

In order to achieve the above object, the utility model provides a following technical scheme: a device for recovering ammonia gas in amino alkoxy silane coupling agent production comprises a reaction furnace body, a feeding funnel, a reaction furnace support table, a reaction furnace control box, a thermometer, a reaction furnace button, a first gas pipe, a pipeline connecting disc, a bolt, a second gas pipe, a gas flow meter, an ammonia gas storage tank, a storage tank support table, a storage tank controller, a display, a storage tank button, an ammonia gas output pipe, an output pipe connecting disc, a bolt hole, a pressure gauge and a pressure gauge support rod, wherein the reaction furnace body is fixedly connected with the feeding funnel, the reaction furnace body is positioned below the feeding funnel, the reaction furnace support table is fixedly connected with the reaction furnace body, the reaction furnace support table is positioned below the reaction furnace body, the central lines of the reaction furnace support table coincide with each other, the reaction furnace control box is fixedly connected with the reaction furnace body, the reaction furnace control box is positioned on the front surface of the reaction furnace body, the thermometer is fixedly connected with the reaction furnace control box, the thermometer is positioned on the outer surface of the reaction furnace control box, the reaction furnace button is electrically connected with the reaction furnace control box, and the reaction furnace button is positioned on the right surface of the reaction furnace control box;

the first gas pipe is fixedly connected with the pipeline connecting disc, the first gas pipe is positioned on the left side of the pipeline connecting disc, the pipeline connecting disc is fixedly connected with the bolt, the bolt is annularly arrayed on one side of the pipeline connecting disc, the first gas pipe and the second gas pipe are fixedly connected through the pipeline connecting disc, the ammonia gas storage tank is fixedly connected with the storage tank supporting table, the ammonia gas storage tank is positioned above the storage tank supporting table, the storage tank controller is fixedly connected with the ammonia gas storage tank, the storage tank controller is positioned on the front surface of the ammonia gas storage tank, the display is electrically connected with the storage tank controller, the display is positioned on the upper end of the outer surface of the storage tank controller, the ammonia gas output pipe is fixedly connected with the output pipe connecting disc, and the output pipe is positioned on the right side of the ammonia gas output pipe, the output pipe connecting disc annular array is provided with the bolt hole.

Preferably, the manometer with manometer bracing piece fixed connection, the manometer is located the manometer bracing piece, the manometer bracing piece with ammonia is stored up and is received a jar fixed connection, the manometer bracing piece is located the right side that the ammonia was stored up and is received a jar.

Preferably, the gas flowmeter is fixedly connected with the second gas conveying pipe, and the gas flowmeter is positioned above the outer surface of the second gas conveying pipe.

Preferably, the first air conveying pipe and the second air conveying pipe are made of alloy steel materials.

Preferably, the first air pipe and the second air pipe are fixedly connected through the pipe connecting disc, and an elastic rubber pad is fixedly arranged at the joint.

Preferably, the second gas transmission pipe is connected with the ammonia gas storage tank in a welding mode.

Preferably, store up a jar button with store up a jar controller electric connection, store up and be located a jar button is located store up the downside of the surface of a jar controller.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a mode that jar an organic whole is received in the reacting furnace body of the amino alkoxysilane that sets up and ammonia storage, the effectual efficiency that improves production, its ammonia storage is received the circular design of jar and is effectively improved space utilization.

2. Can effectively observe out the pressure condition in the ammonia storage tank through being provided with the manometer, prevent to receive the inside too high production damage of pressure of jar because of the ammonia storage, the effectual personal safety who has protected the staff can effectively observe out the temperature condition in the reacting furnace body through being provided with the thermometer, effectively makes things convenient for the staff to observe the temperature.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a front view of the structure of the present invention.

Fig. 3 is a left side view of the structure of the present invention.

Fig. 4 is a top view of the structure of the present invention.

In the figure: 1. a reaction furnace body; 2. a feed hopper; 3. a reaction furnace support table; 4. a reaction furnace control box; 5. a thermometer; 6. a reactor button; 7. a first gas delivery pipe; 8. a pipe connecting plate; 9. a bolt; 10. a second gas delivery pipe; 11. a gas flow meter; 12. an ammonia gas storage tank; 13. a storage tank support table; 14. a storage tank controller; 15. a display; 16. a storage tank button; 17. an ammonia gas output pipe; 18. an output pipe connecting disc; 19. bolt holes; 20. a pressure gauge; 21. manometer bracing piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an ammonia gas recovery device in amino alkoxy silane coupling agent production as shown in figures 1-4, as shown in figure 1, a reaction furnace body 1 is fixedly connected with a feed hopper 2, the reaction furnace body 1 is positioned below the feed hopper 2, a reaction furnace supporting platform 3 is fixedly connected with the reaction furnace body 1, the reaction furnace supporting platform 3 is positioned below the reaction furnace body 1, the central line coincides, the production efficiency is effectively improved by the way that the reaction furnace body 1 of the arranged amino alkoxy silane is integrally connected with an ammonia gas storage tank 12, the reaction furnace control box 4 is fixedly connected with the reaction furnace body 1, the reaction furnace control box 4 is positioned on the front surface of the reaction furnace body 1, a thermometer 5 is fixedly connected with the reaction furnace control box 4, the thermometer 5 is positioned on the outer surface of the reaction furnace control box 4, the temperature condition in the reaction furnace body 1 can be effectively observed by arranging the thermometer 5, the temperature can be effectively and conveniently observed by workers, the reaction furnace button 6 is electrically connected with the reaction furnace control box 4, and the reaction furnace button 6 is positioned on the right side of the outer surface of the reaction furnace control box 4;

as shown in fig. 2, the first gas pipe 7 is fixedly connected with the pipe connection pad 8, the first gas pipe 7 is positioned on the left side of the pipe connection pad 8, the pipe connection pad 8 is fixedly connected with the bolt 9, the bolt 9 is annularly arrayed on one side of the pipe connection pad 8, the first gas pipe 7 is fixedly connected with the second gas pipe 10 through the pipe connection pad 8, the ammonia gas storage tank 12 is fixedly connected with the storage tank support platform 13, the ammonia gas storage tank 12 is positioned above the storage tank support platform 13, the storage tank controller 14 is fixedly connected with the ammonia gas storage tank 12, the storage tank controller 14 is positioned in front of the outer surface of the ammonia gas storage tank 12, the display 15 is electrically connected with the storage tank controller 14, the display 15 is positioned at the upper end of the outer surface of the storage tank controller 14, the ammonia gas output pipe 17 is fixedly connected with the output pipe connection pad 18, the output pipe connection pad 18 is positioned on the right side of the ammonia gas output pipe 17, and the;

the pressure gauge 20 is fixedly connected with the pressure gauge support rod 21, the pressure gauge 20 is arranged on the pressure gauge support rod 21, the pressure gauge support rod 21 is fixedly connected with the ammonia gas storage tank 12, the pressure gauge support rod 21 is arranged on the right side of the ammonia gas storage tank 12, the pressure condition in the ammonia gas storage tank 12 can be effectively observed through arranging the pressure gauge 20, damage caused by overhigh pressure in the ammonia gas storage tank 12 is prevented, the personal safety of workers is effectively protected, the gas flow meter 11 is fixedly connected with the second gas pipe 10, the gas flow meter 11 is arranged above the outer surface of the second gas pipe 10, the first gas pipe 7 and the second gas pipe 10 are made of alloy steel materials, sufficient pressure intensity is effectively provided, the first gas pipe 7 and the second gas pipe 10 are fixedly connected through the pipeline connecting plate 8, an elastic rubber pad is fixedly arranged at the connecting position, the second gas pipe 10 and the ammonia gas storage tank 12 are connected in a welding mode to improve the connecting intensity, the storage canister button 16 is electrically connected to the storage canister controller 14, and the storage canister button 16 is located on the underside of the outer surface of the storage canister controller 14.

This practical theory of operation: when the utility model is used, the utility model is firstly connected into industrial electricity, and amino alkoxy silane is put into the reaction furnace body 1 through the feeding funnel 2;

the principle that ammonia gas is generated by the reaction furnace body 1 through the amino alkoxy silane coupling agent is that the amino alkoxy silane coupling agent Y-R-Si (OR) n is 0-3; an X-hydrolyzable group; y an organic functional group capable of reacting with the resin. X is typically chloro, methoxy, ethoxy, methoxyethoxy, acetoxy, etc., which upon hydrolysis form silanol Si (OH)3, which combines with inorganic species to form siloxanes. Y is vinyl, amino, epoxy, methacryloxy, mercapto or ureido. These reactive groups can react with and bind to organic substances. Therefore, by using the silane coupling agent, a 'molecular bridge' can be erected between the interfaces of the inorganic substance and the organic substance, ammonia gas is generated by the connection of the molecular bridge, the reaction temperature of the reaction furnace body 1 is observed by a set thermometer in the chemical reaction, and the explosion of the reaction furnace body 1 caused by overhigh internal pressure when the chemical reaction temperature is overhigh is prevented;

after producing the ammonia, import the ammonia storage through the second gas-supply pipe 10 that is provided with and receive jar 12, can effectively observe the pressure condition in the ammonia storage jar 12 through being provided with manometer 20, prevent to receive jar 12 inside pressure because of the ammonia storage and produce the damage and reveal, when observing the ammonia pressure through manometer 20 when too high, will export the ammonia through ammonia output tube 17.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (7)

1. The utility model provides an ammonia gas recovery unit in amino alkoxy silane coupling agent production, including reacting furnace body (1), feed hopper (2), reacting furnace supporting platform (3), reacting furnace control box (4), thermometer (5), reacting furnace button (6), first gas-supply pipe (7), pipe connection dish (8), bolt (9), second gas-supply pipe (10), gas flowmeter measurer (11), ammonia storage tank (12), storage tank supporting bench (13), storage tank controller (14), display (15), storage tank button (16), ammonia output tube (17), output tube connection dish (18), bolt hole (19), manometer (20), manometer bracing piece (21), its characterized in that: the reaction furnace body (1) is fixedly connected with the feeding funnel (2), the reaction furnace body (1) is positioned below the feeding funnel (2), the reaction furnace supporting platform (3) is fixedly connected with the reaction furnace body (1), the reaction furnace supporting platform (3) is positioned below the reaction furnace body (1) and the central lines of the reaction furnace supporting platform and the reaction furnace supporting platform coincide with each other, the reaction furnace control box (4) is fixedly connected with the reaction furnace body (1), the reaction furnace control box (4) is positioned on the front surface of the reaction furnace body (1), the thermometer (5) is fixedly connected with the reaction furnace control box (4), the thermometer (5) is positioned on the outer surface of the reaction furnace control box (4), the reaction furnace button (6) is electrically connected with the reaction furnace control box (4), the reaction furnace button (6) is positioned on the right side of the outer surface of the reaction furnace control box (4);

the first gas pipe (7) and the pipe connection pad (8) fixed connection, the first gas pipe (7) is located on the left side of the pipe connection pad (8), the pipe connection pad (8) and the bolt (9) fixed connection, the bolt (9) annular array is arranged on one side of the pipe connection pad (8), the first gas pipe (7) and the second gas pipe (10) are connected through the pipe connection pad (8) fixed connection, the ammonia gas storage tank (12) and the storage tank support table (13) fixed connection, the ammonia gas storage tank (12) is located above the storage tank support table (13), the storage tank controller (14) is connected with the ammonia gas storage tank (12) fixed connection, the storage tank controller (14) is located in front of the outer surface of the ammonia gas storage tank (12), the display (15) is connected with the storage tank controller (14) electrically, display (15) are located store up the upper end of holding jar controller (14) surface, ammonia output tube (17) with output tube connection dish (18) fixed connection, output tube connection dish (18) are located ammonia output tube (17) right side, output tube connection dish (18) annular array is provided with bolt hole (19).

2. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: manometer (20) with manometer bracing piece (21) fixed connection, manometer (20) are located manometer bracing piece (21), manometer bracing piece (21) with ammonia gas storage tank (12) fixed connection, manometer bracing piece (21) are located the right side of ammonia gas storage tank (12).

3. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: the gas flowmeter (11) is fixedly connected with the second gas conveying pipe (10), and the gas flowmeter (11) is located above the outer surface of the second gas conveying pipe (10).

4. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: the first air conveying pipe (7) and the second air conveying pipe (10) are made of alloy steel materials.

5. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: the first air conveying pipe (7) and the second air conveying pipe (10) are fixedly connected through the pipeline connecting disc (8), and an elastic rubber pad is fixedly arranged at the joint.

6. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: the second gas transmission pipe (10) is fixedly connected with one side of the ammonia gas storage tank (12) through welding.

7. The ammonia gas recovery device in the production of amino alkoxy silane coupling agent according to claim 1, characterized in that: storage tank button (16) with storage tank controller (14) electric connection, storage tank button (16) are located the downside of storage tank controller's (14) surface.

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